Nitrite is one of the toxic substances existing in foods such as fish, meat products and vegetables, which has a great impact on human life and health. When nitrite ions enter the body, they bind with blood hemoglobin to form metahemoglobin, causing it to lose its oxygen-carrying capacity. It also combines with amines and amides of the digestive organ to produce carcinogenic nitrosamine compound. Therefore, an accurate measurement of nitrite concentration is very important for protecting human life and health.
So far, various methods of detecting nitrite, such as chromatography, spectrophotometry, and electrochemical analysis, have been developed. Among these methods, the detection of nitrite ions by electrochemical sensing electrodes is a major candidate for nitrite detection due to its high sensitivity, selectivity and fast response. In particular, modified electrodes based on conducting polymers including polyaniline, polypyrrole and polyphenylene have received great attention in the development of sensing electrodes using them because of their ability to prevent surface contamination and improve the electrochemical properties of the electrodes.
Pak Jong Sung, a section head at the Faculty of Chemical Engineering, has developed a novel electrochemically modified carbon paste electrode based on PANI-TiO2/Pt nanocomposites.
The experimental results demonstrate that the PANI-TiO2/Pt electrode has pretty excellent electrocatalytic ability for oxidation of nitrite.
For more information, please refer to his paper “Electrochemical Detection of Nitrite on PANI-TiO2/Pt Nanocomposite−Modified Carbon Paste Electrodes Using TOPSIS and Taguchi Methods” in “ACS Omega” (SCI).
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